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MBF 2263 Portfolio Management & Security Analysis. Lecture 2 Risk and Return. 3 Possible Scenarios. The Concept of Volatility.
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MBF 2263 Portfolio Management & Security Analysis Lecture 2 Risk and Return
The Concept of Volatility Based on the above discussion, it is therefore understandable that returns from investment are volatile. In portfolio investment, risk is measured using the concept of standard deviation of the expected returns, which is a statistical concept that describes the dispersion of returns around the expected returns.
For example, if an investment is said to have an expected annual return of five percent with a standard deviation of two percent. Therefore, under the assumption that the returns are normally distributed, it could be interpreted that the return is between three percent to seven percent i.e. the expected return plus or minus one standard of deviation.
Types of Risk • Currency Risk • Systemic Risk • Operation Risk • Credit Risk • Liquidity Risk • Market Risk
Mean (Expected Return) • Expected return is the mean for random variable. Mean is the arithmetic average of probability for all the possibilities in the value of random variables. Mean is obtained when the experiments are repeated several times and the results of these experiments are obtained that is the weighted average probability for the all outcomes are determined.
Variance and Standard Deviation • Variance is a measure of dispersion or distribution of all possible result around mean (expected value). In other words, it is the square of standard deviation. Standard deviation is the measurement of dispersion around the expected value of a probability distribution or its frequency, which is the square root of variance. Both are measurements for risk that take into consideration the systematic risk and the unsystematic risk.
Coefficient of Variation • Coefficient of variation is a standard deviation ratio on expected return. It is a standard measurement of risks for each unit of return. Coefficient of variation is used as the comparison basis for two investments in financial assets. It is used if a situation arises where the financial asset of A produces return that is higher than the financial asset of B but at the same time, the financial asset of A has higher risk compared to the financial asset of B. The higher the value of CV, the higher it will be for the level of risk for each unit of return.
Covariance The use of covariance can explain to you the relationship of returns among the financial assets that can be compared. In other words, covariance measures how far two random variables are different from each other. Strategic Marketing Management
Covariance • (a) The value of positive covariance shows that one of the random variables states a value more than mean, while the other random variable is also inclined towards the value of more than mean. • (b) The value of negative covariance shows that one of the random variables states a value of more than the mean, while the other random variable will incline towards the value of less than mean.
(c) The value of zero covariance shows that no pattern had been formed between the two variables. Strategic Marketing Management
Correlation Coefficient • Correlation coefficient is used to measure the relationship movement magnitude between two variables that is, the movement of returns on financial assets that are being analysed. It is obtained by dividing the covariance with the result of multiplying the standard deviation. The value of correlation coefficient is between the range of -1 and +1 only. Normally, it is written as Corr (r1,r2) or the symbol Rho (r).
(a) Perfect Negative Correlation Correlation -1.0 explain two variables moving in opposite directions and with the same magnitude. The combination of investment in these two sets of financing is said to reduce risk. • (b) Perfect Positive Correlation [Corr (r1, r2) = +1.0] Correlation +1.0 explain two variables moving in the same directions and with the same magnitude. The combination of investment in these two sets of financing is said not to be able to reduce risk.
(c) Positive Correlation Positive correlation, for example +0.4 explains two variables moving in the same direction but at different magnitudes. The combination of these variables created lower risk compared to cases of perfect positive correlations but is higher compared to cases of perfect negative correlations.